Print Email Facebook Twitter Unsupervised Manifold Alignment with TopoGAN Title Unsupervised Manifold Alignment with TopoGAN: Aligning multi-modal biological data without correspondence information available across modalities Author Singh, Akash (TU Delft Electrical Engineering, Mathematics and Computer Science; TU Delft Pattern Recognition and Bioinformatics) Contributor Mahfouz, A.M.E.T.A. (mentor) Reinders, M.J.T. (graduation committee) Lofi, C. (graduation committee) Abdelaal, T.R.M. (graduation committee) Degree granting institution Delft University of Technology Programme Computer Science | Data Science and Technology Date 2021-08-26 Abstract Single-cell multi-modal omics promises to open new doors in bioinformatics by measuring different aspects of cells, thus offering multiple perspectives on the underlying biological phenomenon. Although simultaneous multi-modal measurement protocols do exist, their inherent technical limitations necessitate focus on single modality measurements. These single modality measurements, however, destroy the cell in question, thus making simultaneous measurements impossible. This gives rise to a great availability of multi-modal biological data with no inter-data set sample/feature correspondence. This work proposes a novel approach to align multi-modal data sets in an unsupervised fashion using an Autoencoder to obtain latent embeddings of the modalities and a Generative Adversarial Network to align these latent representations. Minimising the topological error between the original and latent representations of a data set is central to this approach which enables not just the superposition but also alignment of different modalities. Two recently published methods, UnionCom and MMD-MA, have been used for comparison and benchmarking. The approach, termed TopoGAN, has been demonstrated to give consistently stable alignments, give better quantitative performance in realistic unsupervised settings, and scale much better in terms of memory requirements as compared to these state-of-the-art methods. Subject BioinformaticsTopologyGenerative Adversarial NetworksAutoencoderAlignment To reference this document use: http://resolver.tudelft.nl/uuid:e2399b98-930e-4e4e-b82c-b118452ad952 Part of collection Student theses Document type master thesis Rights © 2021 Akash Singh Files PDF MSC_Thesis_Akash_5156416.pdf 5.65 MB Close viewer /islandora/object/uuid:e2399b98-930e-4e4e-b82c-b118452ad952/datastream/OBJ/view